Li D, Roberts R
Department of Medicine, Baylor College of Medicine, Houston, Texas 77030, USA.
Cell Mol Life Sci. 2001 Dec;58(14):2085-97. doi: 10.1007/pl00000838.
Defined by the presence of four or more repeating units containing a conserved core of approximately 40 amino acids that usually ending with tryptophan-aspartic acid (WD), WD-repeat proteins belong to a large and fast-expanding conservative protein family. As demonstrated by the crystal structure of the G protein beta subunit, all WD-repeat proteins are speculated to form a circularized beta propeller structure. The importance of these proteins is not only demonstrated by their critical roles in many essential biological functions ranging from signal transduction, transcription regulation, to apoptosis, but is also recognized by their association with several human diseases. Defining the function of a WD-repeat protein is the current challenge. It is, however, paramount to uncover the function of individual WD-repeat proteins, explore the protein interaction mechanism through WD-repeat domains and, ultimately, understand the complex biological processes and organisms themselves.
WD 重复蛋白由四个或更多重复单元组成,这些重复单元包含一个约 40 个氨基酸的保守核心,通常以色氨酸 - 天冬氨酸(WD)结尾,属于一个庞大且快速扩展的保守蛋白家族。正如 G 蛋白β亚基的晶体结构所示,所有 WD 重复蛋白都推测会形成一个环化的β螺旋桨结构。这些蛋白的重要性不仅体现在它们在从信号转导、转录调控到细胞凋亡等许多基本生物学功能中发挥的关键作用,还体现在它们与多种人类疾病的关联上。确定 WD 重复蛋白的功能是当前面临的挑战。然而,揭示单个 WD 重复蛋白的功能、通过 WD 重复结构域探索蛋白质相互作用机制,并最终理解复杂的生物学过程和生物体本身至关重要。